KR20190009155A - Door closer - Google Patents

Abstract

The present invention relates to a door closer to close a door. According to the present invention, an elastic member is disposed in a housing, a first moving body having a tooth shape formed on one side is elastically supported to the elastic member to be linearly moved in the housing, and a second moving body having a tooth shape formed on one side is disposed to be linearly moved in the housing. A rotating body connected to a link rotated in accordance with opening and closing of the door is engaged with the tooth shape of the first and second moving bodies between the first and second moving bodies so as to be rotated in the housing. A piston is installed on a front end surface of the first and second moving bodies, a one-way opening and closing device is installed between the piston and the front end surface of the first and second moving bodies, and two cylinder parts surrounding a piston of the first and second moving bodies are disposed in the housing. A pneumatic pressure passage is formed on the bottom side of the two cylinder parts and a pressure adjuster for adjusting the opening degree of the pneumatic pressure passage is coupled to both sides of the housing. Accordingly, the door closer has a structure to compress the inner space of the two cylinder parts by the first and second moving bodies to reduce a moving speed of the first and second moving bodies by a damping force caused by two pneumatic pressures, thereby providing an effect of easily reducing a rotating force of a door, such as a fire door, and the like, by the damping force due to the pneumatic pressure.

Description

DOOR CLOSER

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a door closure for closing a hinged door such as a fire door, and more particularly, to a door closure for reducing a rotational force of a door easily by an air- .

Description of the Related Art [0002] In general, a door closer, such as a fire door of a house, an apartment or an office building, such as a fire door or a door, is usually provided with a door close to the door. A spring disposed on one side of the inside of the housing and a rack gear engaged with the pinion gear so as to press the spring when the door is opened so as to accumulate elastic energy for closing the door, Respectively.

The housing of this door closure is attached to the door, one end of the link is fastened to the link shaft, and the other end of the link is fastened to the door frame.

For example, in order to construct a compact housing, a technology developed and registered as a patent application No. 10-2012-0139177 has been developed, which includes a housing fixed to a door; A link once connected to the frame of the door; A link shaft rotatably fitted in the housing and having an upper end protruding outside the housing, the link shaft being connected to the other end of the link; A pinion gear rotating coaxially with the link shaft; A rack gear portion inserted into the housing so as to be reciprocable in the longitudinal direction of the housing and meshing with the pinion gear at one end portion thereof, a piston base portion at the other end portion, A piston having a piston body connecting the base; And a coil spring fitted to the piston body to compress elastic energy when the link shaft rotates in a direction in which the door is opened, A damping oil filled in the through hole of the rack gear, and a seal unit which prevents the damping oil from leaking into the rack gear hole, and further comprises a sealing unit.

Of course, a structure for replacing the oil damping structure with air pressure has also been developed.

However, conventionally, there is a disadvantage in that the method of damping by air pressure has a limitation in controlling the closing speed of the door because it uses one air cylinder, and it is difficult to control the speed immediately before closing the door.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art as described above, and it is an object of the present invention to provide a damping structure for a door, which can easily reduce the rotational force of a door, such as a fire door, And to provide a door closure which can control the volume of the space in the two air cylinders and the time of the secondary air pressure action to control the speed immediately before closing of the door.

In order to achieve the above object, according to the present invention, there is provided a door closure for closing a door, wherein an elastic member is disposed inside the housing, a first moving body having a tooth on one side is elastically supported by the elastic member, And a second movable body having a tooth on one side thereof is disposed so as to be linearly movable within the housing, and a rotating body connected to a link rotated by opening and closing the door, And a piston is installed on a distal end face of each of the first moving body and the second moving body, and the first moving body and the second moving body are mounted on the first moving body and the second moving body, respectively, A one-way opening and closing port is provided between the front end surface of the second moving body and the piston, and two cylinder portions each enclosing the pistons of the first moving body and the second moving body And a pressure regulator for regulating an opening amount of the air pressure passage are respectively fastened to both sides of the housing, wherein the air pressure passage is formed at the bottom of the two cylinder portions, respectively, and the door closure is formed inside the housing .

Further, the present invention is characterized in that any one of the two cylinder portions formed in the housing is formed to be large, and a space size adjusting opening for adjusting the size of the internal space of the largely formed cylinder portion is formed on the inner bottom of the cylinder portion, Or a hole in the form of a hole is formed in any one of the two cylinder portions, and an outlet of the air pressure passage is formed inside the housing.

The door closure according to the present invention has a structure in which the inner space of the two cylinder units is compressed by the first moving body and the second moving body so that the moving speed of the first moving body and the second moving body is reduced by the damping force by the two air pressures Therefore, it is possible to attenuate the rotational force of the door easily by the damping force by the air pressure. In particular, even when applied to a door closer having a spring coefficient higher than that of a general door such as a fire door, .

Further, by providing a difference in the volume of the space in the two air cylinders, the damping force can be made small in the initial state in which the door is closed, and the damping force in the immediately preceding stage when the door is closed can be made large, So that safety accidents occurring at the time when the door is completely closed can be easily prevented.

Further, since the outlet of the air pressure passage is formed to communicate with the inside of the housing, the noise generated when the air is discharged can be minimized.

1 is a front view showing a door to which a door closure according to the present invention is applied and a part of a door frame.
Fig. 2 is a sectional view taken along the line A-A of Fig. 1 showing an example of a door closure according to the present invention.
3 is an enlarged cross-sectional view of part B in Fig.
Fig. 4 is a cross-sectional view taken along the line A-A of Fig. 1 showing another example of a door closer according to the present invention.
5 to 9 are sectional views taken along line A-A of Fig. 1, respectively, showing still another example of a door closer according to the present invention.
10 and 11 are sectional views for explaining an embodiment of a door closure according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 to 9 show a door closer according to the present invention. The door closer compresses the elastic member 12 inside the housing 11 when the door 1 is opened, The housing 11 of the door closure is installed on the door 1 and the link 2 connected to the door crawler is connected to the door frame 1a, Lt; / RTI >

The first moving body 13 is resiliently supported by the elastic member 12 in the housing 11 so as to be linearly movable in the housing 11 and the second moving body 14 And is disposed so as to be linearly movable within the housing 11. [

As a matter of course, it is obvious that the adjustment bolt for adjusting the compressive force of the elastic member 12 is engaged with the housing 11 so as to be brought into close contact with the end of the elastic member 12.

A tooth is formed on one side of the first moving body 13 and the second moving body 14 and a rotating body 15 having the same tooth shape as the first and second moving bodies 13 and 14 is included .

The rotating body 15 connected to the link 2 rotated according to the opening and closing of the door 1 is rotated between the first moving body 13 and the second moving body 14 by the first and second moving bodies 13, 14, and is rotatably installed inside the housing 11. As shown in Fig.

The first moving body 13 and the second moving body 14 are each provided with a piston 16 on the front end face thereof and the front end faces of the first moving body 13 and the second moving body 14, And two cylinders 11a each enclosing a piston 16 coupled to the first moving body 13 and the second moving body 14 are provided in the inside of the housing 11 Respectively,

Of course, when the internal space of the cylinder portion 11a is compressed by the piston 16, the one-way opening / closing port 17 cuts off the flow of air. When the internal space of the cylinder portion 11a is not compressed by the piston 16 It is preferable to use a check ball as in the present embodiment, but it is preferable to use an open / close structure in a currently-opened check valve (a structure that allows air to flow in one direction and prevents air from flowing in another direction) It can be adopted.

The cylinder 11a is formed in the housing 11, but it is obvious that the cylinder 11a can be formed separately.

In the present invention, when the internal space of the cylinder portion 11a is extruded by the piston 16, the air pressure in the internal space of the cylinder portion 11a is gradually discharged to move the first and second moving bodies 13 and 14 You can control the speed.

An air pressure passage 18 is formed at the bottom of each of the two cylinder portions 11a and a pressure regulator 19 for adjusting the damping force by adjusting the opening amount of the air pressure passage 18, Are respectively fastened to both sides of the housing (11) so as to reduce the cross sectional area at the outlet side of the housing (18).

On the other hand, in the case of the two cylinder portions 11a having the same size as described above, the air pressure inside the cylinder portion 11a is uniformly increased due to the movement of the piston 16 when the door is closed, The damping force due to the air pressure at the starting point and the final stopping point of the door could not be adjusted.

Therefore, in the present invention, as shown in FIG. 4, in addition to the damping force control by the pressure regulator 19, any one of the two cylinder portions 11a formed in the housing 11 is formed to be large in the longitudinal direction of the cylinder portion, The door can be closed more quickly at the initial closing timing.

That is, the air pressure is increased in inverse proportion to the space volume in the cylinder portion 11a compressed by the piston 16, and the length of the cylinder portion 11a formed to be larger than the length of the small-sized cylinder portion 11a It is preferable to form the cylinder portion 11a with a damping force by mainly using the air pressure formed inside the cylinder portion 11a which is formed small in the initial closing timing of the door by reducing the amount of volume change in the largely formed cylinder portion 11a And the air pressure inside the two cylinder portions 11a, which are compressed by the piece cone 16, when the door is finally closed, disturbs the movement of the first and second moving bodies 13, 14.

In the present invention, as shown in FIG. 5, since it is necessary to adjust the space inside the cylinder portion 11a formed as described above, the space size adjusting opening 20 for adjusting the size of the internal space of the largely formed cylinder portion And is formed on the inner bottom of the cylinder portion.

On the other hand, in order to adjust the initial closing speed of the door and the final closing speed of the door as described above, a ventilation hole 11aa in the form of a groove or a hole for adjusting the compression point as shown in Figs. 8 and 9, (11a).

Particularly, in the present invention, when the piston 16 compresses the cylinder portion 11a, the air inside the cylinder portion 11a is discharged to the outside through the air pressure passage 18 to generate noise, The outlet of the pneumatic passage 18 is formed inside the housing 11 in the present invention.

The first moving body 13 is linearly moved in the direction of compressing the elastic member 12 while the rotating body 15 is rotated by the link 2 rotated when the door 1 is opened, The movable body 13 is moved by the elastic force of the elastic member 12 when the rotary body 15 is closed so that the rotary body 15 is rotated and the link 2 is rotated and the door 1 is closed by the elastic member 12. [

When one elastic member is used, the elastic force of the elastic member acts as a frictional force between the teeth of the movable body provided with the elastic member and the teeth of the rotating body when the door is opened and closed, .

6 and 7, the elasticity of the elastic member is lowered without using one elastic member, so that the elasticity of the elastic members 12 (12 Respectively.

In addition, since the first moving body 13 and the second moving body 14 are formed separately, the width of the product may be increased. Therefore, in order to reduce the width of the product, the second moving body 14 may be deformed It is.

For example, assuming that the elastic modulus of the elastic member when using one elastic member is 1, when using the two elastic members, even if the elastic modulus of the elastic member is reduced to 1/2, And the frictional force between the second moving body and the rotating body can be dispersed, so that the wear of this portion can be reduced.

Particularly, since a single elastic member is used in the past, it is difficult to increase the elastic modulus of the elastic member due to the wear of the moving body and the rotating body, and the danger of the assembly process. Therefore, a device for supplementing the closing force of the fire door However, when two elastic members are used as in the present invention, when the elastic modulus of a conventional elastic member is assumed to be 1, even if the elastic modulus of the two elastic members is applied at 2/3 to 3/4, The closing force of the fire door can be smoothly implemented without providing a separate device for supplementing the door.

Although not shown in detail in this embodiment, when the elastic member 12, the first and second moving bodies 13 and 14, the rotating body 15 and the like are installed in the housing 11, It is preferable to form a shape such as an installation groove and a guide groove.

The door closure according to the present invention having the above-described structure is similar to that of the conventional door closing apparatus.

When the door is completely opened in this state, the first moving body 13 moves in the direction of compressing the elastic member 12 in accordance with the rotation of the rotating body 15, It becomes the same state.

7, when the door 1 is closed by the elastic force of the elastic member 12, the link 2 of FIG. 7 is closed when the door 1 is opened, And is rotated in the arrow direction.

Then, the rotation body 15 is rotated simultaneously with the rotation of the link 2, and the first and second moving bodies 13 and 14 move and the piston 16 compresses the internal space of the cylinder portion 11a .

Since the amount of air discharged through the air pressure passage 18 is smaller than the amount of change in volume due to the compression of the piston 16 in the internal space of the cylinder portion 11a, the air pressure is formed inside the cylinder portion 11a, , The moving speed of the second moving bodies 13 and 14 is reduced.

The air pressure acts only on the inner space between the piston 16 and the cylinder portion 11a coupled to the first moving body 13 until the moving speed of the first moving body 13 reaches The damping force for control is relatively smaller than the damping force described later.

That is, as shown in FIG. 9, the piston 16 coupled to the second moving body 13 passes through the vent 11aa, and the piston 16 connected to the second moving body 13 moves in the inner space of the cylinder 11aa A second damping force is added while compressing to control the moving speed of the second moving body 14 to occur in a space between the front end face of the two pistons 16 and the inner face of the cylinder portion 11a at the time of final closing of the door So that the moving speed of the first and second moving bodies 13 and 14 is further reduced and finally closed more slowly at the time of closing the door 1 finally.

Thus, in the present invention, the closing speed of the door can be smoothly reduced without using the hydraulic pressure.

1: Door 2: Link
11: Housing 11a:
12: elastic member 13,14: first and second moving bodies
15: Rotor 16: Piston
17: one-way opening / closing port 18: air pressure passage
19: Pressure regulator 20: Space regulator

Claims (6)

CLAIMS 1. A door closure for closing a door,
A first moving body having a tooth on one side thereof is elastically supported on the elastic member so as to be linearly movable in the housing and a second moving body having a tooth on one side is fixed to the housing, A rotating body connected to a link rotated by the opening and closing of the door is engaged with the teeth of the first and second moving bodies between the first moving body and the second moving body, A first movable body and a second movable body each having a piston provided on a front end face of the first movable body and the second movable body, respectively, a one-way opening and closing port is provided between a front end face of the first moving body and the piston and the piston, Two cylinder portions each enclosing the piston of the second moving body are formed in the housing, air pressure passages are formed on the bottom sides of the two cylinder portions, respectively, Multiple door closer made to obtain pressure control for adjusting the opening amount of the air-pressure passage are each respectively secured to either side of the housing. The method according to claim 1,
Wherein one of the two cylinder portions formed in the housing is formed to be large. 3. The method of claim 2,
And a space size adjusting opening for adjusting the size of the inner space of the largely formed cylinder portion is formed on the inner bottom of the cylinder portion. The method according to claim 1,
Wherein a groove or a hole in the form of a hole for adjusting the compression timing is formed in one of the two cylinder portions. The method according to claim 1,
And an outlet of the air pressure passage is formed inside the housing. The method according to claim 1,
And an elastic member for elastically supporting the second moving body is installed inside the housing.

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